CN203964663U - Novel temperature measuring heating furnace - Google Patents

Abstract

The utility model discloses a kind of Novel temperature measuring heating furnace, comprise body of heater, nano material heater, heat-insulation layer and furnace chamber, described furnace chamber is arranged in body of heater, and nano material heater is arranged on furnace chamber bottom; Nano material heater comprises heat resistant substrate, Nano compound material membrane, the first electrode and the second electrode; Described heat-insulation layer is arranged on furnace chamber periphery, and furnace chamber is wrapped up; The peripheral parcel heat radiation of described heat-insulation layer chamber, and heat radiation chamber is positioned at body of heater; On described heat radiation through hole, cooling fan is also set; Described temperature probe is infrared optical fiber temperature probe; The utility model can be adjusted the temperature of heating furnace, heated at constant temperature, measures heating-up temperature in time, has improved temperature measurement accuracy, ensure product quality, safety coefficient in production process is improved greatly, and service life of equipment is longer, has improved extrusion yield, and involve light evil without electromagnetism, safety, use more reliable, the fast and power saving of heat-transfer rate, and can not revealing or spontaneous combustion.

Description

Novel temperature measuring heating furnace

Technical field

The utility model relates to a kind of heating furnace, specifically a kind of Novel temperature measuring heating furnace.

Background technology

Conventional aluminum profile extrusion die heating furnace is all to adopt heating by electric cooker mode conventionally, because heating by electric cooker mode is difficult to make be heated to equal temperature state inside and outside mould, make mould unbalance stress in extrusion process, easily crack, split bridge and scrap, increased mould production cost; And the deficiencies such as power is large, power consumption is many, the heat time is long, the easy oxygen of mould that heating furnace exists, require very high to the uniformity of heat-generating pipe, otherwise can cause local temperature too high, and the online steel pipe heating-up temperature that accurately detects, stablize and improve the inherent quality of thickened steel-tube, be always the difficult problem being concerned about and need to capturing.

Summary of the invention

The purpose of this utility model is to provide a kind of heated at constant temperature, thermometric in time, and heating effect is good, and the Novel temperature measuring heating furnace that nano material is made, to solve the problem proposing in above-mentioned background technology.

For achieving the above object, the utility model provides following technical scheme:

A kind of Novel temperature measuring heating furnace, comprises body of heater, nano material heater, heat-insulation layer and furnace chamber, and described furnace chamber is arranged in body of heater, and nano material heater is arranged on furnace chamber bottom; Nano material heater comprises heat resistant substrate, Nano compound material membrane, the first electrode and the second electrode; Described Nano compound material membrane is covered on heat resistant substrate by multiple arc plasma plating mode, and Nano compound material membrane merges mutually with the top layer of heat resistant substrate, forms translucent Nano compound material membrane; Described Nano compound material membrane is semiconductor conducting film, between Nano compound material membrane and heat resistant substrate, has fused layer; Described Nano compound material membrane one end configures the first electrode, and the other end configures the second electrode; Described the first electrode and the second electrode are silver electrode, and all conducting terminal are installed; Described heat-insulation layer is arranged on furnace chamber periphery, and furnace chamber is wrapped up; The peripheral parcel heat radiation of described heat-insulation layer chamber, and heat radiation chamber is positioned at body of heater; On described heat radiation through hole, cooling fan is also set; Described temperature probe is infrared optical fiber temperature probe, and comprises temperature measuring mechanism and thermal coefficient of expansion testing agency; Described furnace chamber sidewall is provided with relatively plate of a deblocking temperature; On the top of described furnace chamber, offer temperature measuring window, and temperature measuring window runs through heat-insulation layer, stretch out body of heater, external power supply; Described temperature probe is through temperature measuring window, and the test point of temperature probe is located immediately at temperature and compares on plate; Described temperature probe is also covered with heat shield outward, and described heat shield is connected on temperature measuring window; The top of described body of heater arranges the elevating mechanism that is through to furnace chamber.

Further, described heat resistant substrate is insulation heat resistant substrate, and insulation heat resistant substrate material is devitrified glass, pottery, crystal glass, safety glass, glass tube or heat resistant plastice.

Further, the conducting terminal of described the first electrode and the second electricity is electrically connected power circuit.

Further, in described heat shield, be provided with cooling water circulation pipeline.

Further, described elevating mechanism is made up of drive motors and drive link.

Compared with prior art, the beneficial effects of the utility model are:

1, can adjust the rate of rise in temperature of heating furnace, avoid heated crack of die, adjust furnace chamber height according to the size and dimension of heated mould, flexibility is high, and programming rate is fast, and in burner hearth, temperature is even, be conducive to mould thermally equivalent, heated at constant temperature, measures heating-up temperature in time, has improved temperature measurement accuracy, ensure product quality, safety coefficient in production process is improved greatly, and service life of equipment is longer, has improved extrusion yield.

2, after access power circuit, can keep stable far infrared heat and temperature, the non-hot gas of its thermal source, but far-infrared radiation ripple, far-infrared radiation wave divergence, to needed space, is carried out thermal source work, involve light evil without electromagnetism, safety, use more reliable, the fast and power saving of heat-transfer rate, and can not revealing or spontaneous combustion;

3, be covered on heat resistant substrate by multiple arc plasma plating mode, form translucent Nano compound material membrane, Nano compound material membrane is combined very tight with heat resistant substrate, be difficult for coming off because of wearing and tearing, meanwhile, Nano compound material membrane covers even, accurate on heat resistant substrate, the heating power equilibrium of unit are, make whole heater stable performance, product quality and homogeneity of product are good.

Brief description of the drawings

Fig. 1 is the structural representation of Novel temperature measuring heating furnace.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is clearly and completely described, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtaining under creative work prerequisite, all belong to the scope of the utility model protection.

Refer to Fig. 1, in the utility model embodiment, a kind of Novel temperature measuring heating furnace, comprises body of heater 13, nano material heater, heat-insulation layer 11 and furnace chamber 14, and described furnace chamber 14 is arranged in body of heater 13, and nano material heater is arranged on furnace chamber 14 bottoms, nano material heater comprises heat resistant substrate 1, Nano compound material membrane 2, the first electrode 3 and the second electrode 4, described heat resistant substrate 1 is insulation heat resistant substrate, this insulation heat resistant substrate is logical bears the high temperature of 1000 DEG C, and temperature raising fast, insulation heat resistant substrate is crystallite glass substrate, ceramic substrate, crystal glass substrate, reinforced glass substrate, glass tube or heat resistant plastice substrate, described Nano compound material membrane 2 is covered on heat resistant substrate 1 by multiple arc plasma plating mode, and Nano compound material membrane 2 merges mutually with the top layer of heat resistant substrate 1, forms translucent Nano compound material membrane 2, described Nano compound material membrane 2 is semiconductor conducting film, the material membrane 2 of nanometer covers even, accurate on heat resistant substrate 1, the heating power equilibrium of unit are, make whole heater stable performance, product quality and homogeneity are good, after processing by 400 DEG C of-900 DEG C of temperature (being preferably 750 DEG C of temperature) between Nano compound material membrane 2 and heat resistant substrate 1, there is a fused layer 5 between the two, described Nano compound material membrane 2 one end configure the first electrode 3, and the other end configures the second electrode 4, described the first electrode 3 and the second electrode 4 are silver electrode, and conducting terminal 6 is all installed, the conducting terminal 6 of described the first electrode 3 and the second electrode 4 is electrically connected power circuit (dc source or AC power, and AC power needs rectifying and wave-filtering processing), described heat-insulation layer 11 is arranged on furnace chamber 14 peripheries, and furnace chamber 14 is wrapped up, the peripheral parcel heat radiation of described heat-insulation layer 11 chamber 8, and heat radiation chamber 8 is positioned at body of heater 13, described heat radiation chamber 8 is introduced outside convection current air it is dispelled the heat, and avoids too high temperature to affect the miscellaneous part in heating furnace, and heat radiation through hole 9 is set on the right side lateral wall in the chamber 8 of simultaneously dispelling the heat, and heat radiation through hole 9 is by heat radiation chamber 8 and the extraneous passage being connected, on described heat radiation through hole 9, cooling fan 10 is also set, cooling fan 10 has been strengthened the gaseous exchange in heat radiation chamber 8, improves radiating efficiency, described temperature probe 7 is infrared optical fiber temperature probe, and comprise temperature measuring mechanism and thermal coefficient of expansion testing agency, temperature measuring mechanism is for detection of the operating temperature in heating furnace, for carrying out heated at constant temperature, heating furnace provides reference, for detection of the thermal coefficient of expansion that is heated mold materials, (thermal coefficient of expansion refers to that material is under the effect effect of expanding with heat and contract with cold in thermal coefficient of expansion testing agency, the regular coefficient that geometrical property changes along with the variation of temperature), to adjust the rate of rise in temperature of heating furnace according to thermal coefficient of expansion, adjust mode of heating and the heat time of heating furnace, avoid heated crack of die, described furnace chamber 14 sidewalls are provided with relatively plate 74 of a deblocking temperature, on the top of described furnace chamber 14, offer temperature measuring window 72, and temperature measuring window 72 runs through heat-insulation layer 11, stretch out body of heater 13, external power supply, described temperature probe 7 is through temperature measuring window 72, and the test point of temperature probe 7 is located immediately at temperature and compares on plate 74, because the temperature in described furnace chamber 14 is very high, be burned for fear of temperature probe 7, the outer heat shield 8 that is also covered with of described temperature probe 7, described heat shield 8 is connected on temperature measuring window 72, and in heat shield 8, be provided with cooling water circulation pipeline, further reduce the external high temperature impact on temperature probe 7 own, in heating process, under the condition that described temperature comparison plate 74 and heated article remain unchanged, both temperature have definite corresponding relation, before actual production first by small-scale test of many times, obtain the relatively vs. temperature of plate 74 and heated article of temperature in heating process, then directly measure the relatively temperature of plate 74 of temperature with temperature probe 7, inverse goes out to be heated the actual temperature of article, because temperature comparison plate 74 is positioned at body of heater, thermometric is very convenient, can detect online at any time and because temperature comparison plate 74 be not actual product, so can destroy at any time its surperficial oxide skin in the time of thermometric, make the temperature that records non-accurately, improved product quality, the top of described body of heater 13 arranges the elevating mechanism 12 that is through to furnace chamber 14, described elevating mechanism 12 is made up of drive motors and drive link, by controlling the rotation of drive motors, rotate drive link and drive body of heater 13 to move both vertically up and down, can adjust according to shape, the size of heated mould, better mould is heated, be conducive to the thermally equivalent of mould, after having adopted the scheme that the utility model provides, can, according to the material of heating mould, adjust the rate of rise in temperature of heating furnace, avoid heated crack of die, can adjust furnace chamber height according to the size and dimension of heated mould, flexibility is higher, programming rate is fast, and in burner hearth, temperature is even, is conducive to mould thermally equivalent, and can heated at constant temperature, and safety coefficient in production process is improved greatly, and service life of equipment is longer, has improved extrusion yield.

To those skilled in the art, obviously the utility model is not limited to the details of above-mentioned example embodiment, and in the situation that not deviating from spirit of the present utility model or essential characteristic, can realize the utility model with other concrete form.Therefore, no matter from which point, all should regard embodiment as exemplary, and be nonrestrictive, scope of the present utility model is limited by claims instead of above-mentioned explanation, is therefore intended to all changes that drop in the implication and the scope that are equal to important document of claim to include in the utility model.Any Reference numeral in claim should be considered as limiting related claim.

In addition, be to be understood that, although this description is described according to embodiment, but be not that each embodiment only comprises an independently technical scheme, this narrating mode of description is only for clarity sake, those skilled in the art should make description as a whole, and the technical scheme in each embodiment also can, through appropriately combined, form other embodiments that it will be appreciated by those skilled in the art that.

Claims (5)

1. a Novel temperature measuring heating furnace, comprise body of heater (13), nano material heater, heat-insulation layer (11) and furnace chamber (14), it is characterized in that, described furnace chamber (14) is arranged in body of heater (13), and nano material heater is arranged on furnace chamber (14) bottom; Nano material heater comprises heat resistant substrate (1), Nano compound material membrane (2), the first electrode (3) and the second electrode (4); It is upper that described Nano compound material membrane (2) is covered in heat resistant substrate (1) by multiple arc plasma plating mode, and Nano compound material membrane (2) merges mutually with the top layer of heat resistant substrate (1), forms translucent Nano compound material membrane (2); Described Nano compound material membrane (2) is semiconductor conducting film, between Nano compound material membrane (2) and heat resistant substrate (1), has fused layer (5); Described Nano compound material membrane (2) one end configures the first electrode (3), and the other end configures the second electrode (4); Described the first electrode (3) and the second electrode (4) are silver electrode, and conducting terminal (6) is all installed; Described heat-insulation layer (11) is arranged on furnace chamber (14) periphery, and furnace chamber (14) is wrapped up; The peripheral parcel heat radiation chamber of described heat-insulation layer (11) (8), and heat radiation chamber (8) is positioned at body of heater (13); Cooling fan (10) is also set on described heat radiation through hole (9); Described temperature probe (7) is infrared optical fiber temperature probe, and comprises temperature measuring mechanism and thermal coefficient of expansion testing agency; Described furnace chamber (14) sidewall is provided with relatively plate (74) of a deblocking temperature; On the top of described furnace chamber (14), offer temperature measuring window (72), and temperature measuring window (72) runs through heat-insulation layer (11), stretch out body of heater (13), external power supply; Described temperature probe (7) is through temperature measuring window (72), and the test point of temperature probe (7) is located immediately at temperature and compares on plate (74); Described temperature probe (7) is outer is also covered with heat shield (8), and described heat shield (8) is connected on temperature measuring window (72); The top of described body of heater (13) arranges the elevating mechanism (12) that is through to furnace chamber (14).

2. Novel temperature measuring heating furnace according to claim 1, is characterized in that, described heat resistant substrate (1) is insulation heat resistant substrate, and insulation heat resistant substrate material is devitrified glass, pottery, crystal glass, safety glass, glass tube or heat resistant plastice.

3. Novel temperature measuring heating furnace according to claim 1, is characterized in that, the conducting terminal (6) of described the first electrode (3) and the second electrode (4) is electrically connected power circuit.

4. Novel temperature measuring heating furnace according to claim 1, is characterized in that, described heat shield is provided with cooling water circulation pipeline in (8).

5. Novel temperature measuring heating furnace according to claim 1, is characterized in that, described elevating mechanism (12) is made up of drive motors and drive link.